effect of boscia senegalensis leaves water extract on
TRANSCRIPT
بسم االله الرحمن الرحيم
Effect of Boscia Senegalensis leaves Water Extract on blood
contents of rats
By:
Assmaa Ata Gobarah Mohammed Ali
B.Sc 2003 University of Khartoum
Faculty of Veterinary Medicine
Athesis Submitted for partial Ful Fillment of
The Master Degree in Biochemistry
Supervisor
Prof: Omer Fadul Idris
Faculty of Science &Technology
Alneelain University
Faculty of Veterinary Medicine
Khartoum University
May 2010
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I
DEDICATION
To my lovely parents
To my child and my husband
To my sisters and brothers
To my friends
To all those whom I love
Assmaa
II
Acknowledgements
I am extremely grateful to my supervisor Prof Omer Fadul Idris for his
excellent and wise guidance and continuous encouragement during
the study period.
I am grateful to staff members of Medicinal and Aromatic Plants
Research Institute (MAPRI).
I extend my thanks to the staff members of Laboratory Center in
Khartoum hospital especially Susan Mustafa for assistance in
analysis of samples.
I am highly acknowledging the technical assistance of Mohammed Aldo
who contributed to this work.
Great acknowledgement is extended to my family, friends, teachers and
any one donated help and even hopes.
III
List of Contents Page
Dedication ................................................... .... .................................... ……. I Acknowledegment….................................................................................... II List of Contents……............................................................................ III
List of Tables............................................................................................. VII
List of Figures.......................................................................................... VIII
List of Abbreviations ................................................................................ IX
English Abstract.......................................................................................... X
Arabic Abstract........................................................................................ XI
Introduction............................................................................................... ..1
Chapter One: Literature Review
1. 1 Medicinal plant.......................................................................................3
1.2.1 Taxonomy of Boscia senegalensis:.......................................................4
1.2.2 Common names:.....................................................................................4
1.2.3 Description of B.senegalensis:...............................................................5
1.2.4 Habitat and Distribution: ................................................................... ...7
1.2.5 Constituents of B. Senegalensis:............................................................9
1.2.6 Nutritional value: ................................................................................10
1.2.7 Uses of B. senegalensis:.......................................................................11
1.2.7.1 Nutritional uses:................................................................................11
1.2.7.2 Medicinal uses..................................................................................12
IV
1.2.7.2.1 Traditional medicine:..............................................................12
1.2.7.2.2 Recent medicine: ......................................................................13
1.2.7.2.2.1 Role against Pathogens……………………………….….…..13
1.2.7.2.2.2 The effect on blood cells……………………………………...14
1.2.7.2.2.3 Anti inflammatory effect……………………………..…….....14
1.2.7.3 Pest control.................................................................. ……………15
1.2.7.4 Role in storage:.................................................................................15
1.2.7.6 Water clarification:...........................................................................16
1.2.8 Toxicity:................................................................................................17
Chapter Two: Materials and Methods
2.1 Materials:................................................................................... ……...18
2.1.1 Experimental animals:.........................................................18
2.1.2 Plant material:......................................................................................18
2.1.2.1 Preparation of the aqueous extract:...................................................19
2.1.3 Experimental design:............................................................................19
2.1.4 Feeding program:.................................................................................19
2.1.5 Instruments:..........................................................................................20
2.1.6 Sample collection :...............................................................................20
2.2 Methods:...................................................................................21
2.2.1 Laboratory analysis: ............................................................................21
V
2.2.2 Haematological methods......................................................................21
2.2.3 Serobiochemical methods:-................................................................22
2.2.4 Determination of Alkaline Phosphatase:.(ALP)……………………...22
2.2.5 Determination of Aspartate Amino Transferase (ALT):................ ….24
2.2.6 Determination of Aspartate Amino Transferase (AST):..................25
2.2.7 Determination of Creatinine:................................................................26
2.2.8 Determination of Urea:.........................................................................27
2.2.10 Measurement of Serum Sodium&Potassium:....................................29
2.2.10 Determination of serum amino acids:................................................30
2.2.10 The Amino Acids Analyzer S43:… ………………… ….………....30
.2.2.11 Histopathological methods…………………………………………31
2.2.12 Quality control……………………………………………………....32
2.2.13 Statistical analysis…………………………………...……………...32
Chapter Three:The Results
3.1 The effects of oral administration of B.senegalensis water extract on
blood contents (Hb, Platelets, RBCs ,WBCs , MCV,MCH and MCHC……33
3.1.1 After one week of treatment..................................................................33
3.1.2. After three week of treatment..……………………………………....34
3.2 The effects of oral administration of B. senegalensis water extract
VI
on serum AST,ALT,ALP enzymes ,Urea and Creatinine……………..………35
3.2.1 After two weeks ..................................................................................35
3.2.2 After three weeks…………………………………………………………………...36
3.3 The effects of oral administration of B. senegalensis water extract on
serum electrolytes.........................................................................................................37
3.3.1 The effects of oral administration of B. senegalensis water extract
on serum electrolyte after two weeks .......................................................37
3.3.2 The effects of oral administration of B. senegalensis water extract on serum electrolytes after three weeks…………………………………………..38
3.4 The effects of oral administration of Boscia senegalensis leaves
water extract on serum amino acids on normal rats…………………………39
3.4.1The effects of oral administration of Boscia senegalensis leaves water
extract on serum amino acids on normal rats after two weeks:…………..39
3.4.2 The effects of oral administration of Boscia senegalensis leaves water
extract on serum amino acid on normal rats after three weeks:……………49
3.5 The effect of Boscia senegalensis water extract on liver and kidney
tissues…………………………………………………………………………………..………....59
Chapter Four: Discussion........................................................................................62
Conclusions and Recommindations..................................................................65
References..........................................................................................................................67
VII
List of Tables
Table 1 The effects of oral administration of Boscia senegalensis water extract on
blood contents (Hb, Plateletes , RBCs ,WBCs , MCV,MCH and MCHC)
After one week of treatment……………………………………………..……….33
Table 2 The effects of oral administration of Boscia senegalensis water extract on
blood content (Hb, Plateletes, RBCs, WBCs, MCV,MCH and MCHC). After three
week of treatment…………………………………………………………...........34
Table 3: The effects of oral administration of B senegalensis water extract on
serum AST, ALT ,ALP Enzymes ,Urea and Creatinine :After two weeks………35
Table 4: The effects of oral administration of B senegalensis's water extract on
serum AST, ALT ,ALP Enzymes ,Urea and Creatinine :After three weeks…..…36
Table 5: The effects of oral administration of B senegalensis water extract on
serum electrolytes after two weeks.......................................................................37
Table 6: The effects of oral administration of B senegalensis water extract on serum electrolytes:after three weeks……………………………..………….……38 Table7: Determination of serum amino acids composition group A after 2 weeks:…………………………………..…………………….…40
Table 8: Determination of serum amino acids composition on normal rats group B after 2 weeks………………………………………………...……...…43
Table 9: Determination of serum amino acids composition on normal rats group C after 2 weeks of treatment……………………….……………….46
Table10: Determination of serum amino acids composition : after three weeks of treatment group A (Control)…………… ………………… ...…50
Table11 : Determination of serum amino acid composition : after three weeks of treatment group B…………………………….……………...…53
Table12: Determination of serum amino acid composition: after three weeks of treatment group C………………….……….…………………………...56
VIII
List of Figures
Figure 1: Boscia senegalensis (flowering plant)…………………………………..…...6
Figure2: Boscia senegalensis (leaves &Fruit)………………………………………….8
Figure 3: Determination of serum amino acids composition on normal rats
group A after 2 weeks of treatment:……………………………………….42
Figure 4: Determination of serum amino acids composition on normal rats:
group B after 2weeks of treatment ………………………….…..……..…..45
Figure 5:Determination of serum amino acids composition on normal rats:
group C after 2 weeks of treatment……………………………………..….48
Figure 6: Determination of serum amino acids composition on normal rats:
after three weeks of treatment group A (Control)... …………… …………52
Figure 7: Determination of serum amino acids composition on normal rats:
after three weeks of treatment group B……………………………………55
Figure 8 Determination of serum amino acids composition on normal rats:
after three weeks of treatment group C……………………………………58
Figure 9: Kidney photomicrograph section of rat administered leaves Water extract of
Bosciaa senegalensis (400mg /kg)) Glumerula tubule ,alteration, necrosis,segmentation
…………………………………………………………………………….…………...59
Figure 10: Kidney photomicrograph section of rat administered water extract of Boscia
asenegalensis (400mg kg¯1) showing dilatation of tubule…………………………...60
Figure 11 : Liver photomicrograph section of rat administered aqueous leaves extract of
Boscia senegalensis (400 mg kg¯1) showing Cytoplasmic fatty vaculation centrilobular
hepatocyte &necrosis hemorrhageon hepatocyte…………………………..……..…..61
IX
List of abbreviations
ALT Alanine amino transferase
AST Aspartate amino transferase
ALP Alkaline phosphatase
dl Deciliter
g Gram
Kg Kilogram
L Liter
mg Milligram
mmol Millimole
NADH Nicotinamide adenine dinuclutide (reduced)
NAD+ Nicotinamide adenine dinuclutide (oxidized)
SE Standard error
Hb Hemoglobin
RBCs Red Blood Cells
WBCs White Blood Cell
MCH Mean Corpuscular Hemoglobin
MCHC Mean Corpuscular Hemoglobin Concentration
H& E Hematoxylin and Eosin
X
Abstract
The objective of this study was to investigate the effect of Boscia
senegalensis leaves water extract on blood contents (RBCs ,WBCs ,Hb,
MCV,MCH,MCHC, and platelets count) and on serum ALT,AST, ALP, , Urea,
Creatinine, amino acids composition , sodium and potassium on Wister albino rats.
The water extract of dry powder of B. senegalensis leaves was prepared using
250 g from the plant with 1500 ml and dried by Freez drier apparatus Trivac, USA
.
Twenty four healthy male Wister albino rats were used in this experiment.
They were divided into three groups eight rats in each on the basis of body weight
,the average weight of rats in each group was 75g.Group A kept as Control ,group
B treated by Boscia senegalensis leaves water extract (200g/100g Bwt),Group C
treated by Boscia senegalensis leaves water extracts (400g/100g Bwt ) .
Blood samples were collected after one, two and three weeks respectivly and
used to estimate some biochemical parameters in plasma. This study showed a
significant effect on Hb and RBCs .There was an increase on Hb and decreased
RBCs for two group (B and C) compared with control. Also this study showed no
significantly changes on serum level of ALT, AST ,ALP, Creatinine, Urea and
serum electrolytes. From all previous findings the result is Boscia senegalensis
leaves water extract on dose 400mg/kg has toxic effect on Wister albino rats.
XI
المستخلص
محتويات علي المخيط نباتلأوراق المائي المستخلص اثر دراسة التجربة هذه في تم
الحمراءومتوسط الكرية حجم ومتوسط وتركيزالهيموغلوبين الحمراءوالبيضاء الدم كريات(الدم
ومستوي) الدموية الصفائح وعدد الكلي للكريات ومتوسط الهيموغلوبين للكريه الهيموغلوبين
واليوريا)فوسفتيز والالكلاين ترانسفيريز امينو الاسبرتيت, ترانسفيريز نوامي الالنين انزيمات(
حضر.وسترالبيضاء جرزان ذكور سيرم فى وبوتاسيوم صوديوم,الامينية والاحماض والكرياتنين
دافئ ماء لترونص مع النبات بودرة من جم250 باستخدام المخيط لاوراق المائي المستخلص
ذكور من 24علي البحث هذا في التجربة اجريت. درير جهازفريذ ةبواسط بالتبريدالجاف وجفف
ثمانيةجرذان علي مجموعة كل تحتوي مجموعات ثلاثة الى قسمت وسترالبيضاءوالتى جرزان
للمجموعات ومراقبة ضبط مجموعة الاولي المجموعة. مجموعة لكل جم75 حوالي وزن بمتوسط
وزن من كيلوجرام لكل جرام مل 200 االمائى بمستخلص جرعت الثانية والمجموعات, الاخري
.الجرذان وزن من كيلوجرام لكل جرام مل 400المائى بمستخلص جرعت الثالثة, .الجرذان
دم من عينات أخذت التوالي على التجربة بداية من أسابيع ثلاثة ,أسبوعين,أسبوع بعد
تغييرمعنوى احدث المخيط نباتراق لأو المائي المستخلص المعملي التحليل بعد ولوحظ الجرذان
فى الهيموغلوبين تركيز فى الحمراء وزيادة الدم كريات عدد في بنقص وذلك الدم محتويات فى
لأوراق المائي المستخلص أن ايضا لوحظ.الضبط بمجموعة مقارنة الثانية والثالثة المجموعتين
, ترانسفيريز امينو الالنين(إنزيمات مستوي في معنوي تغيير في يتسبب لم المخيط نبات
الامينية الأحماض,اليوريا, الكرياتنين, )فوسفتيز والالكلاين ترانسفيريز امينو الاسبرتيت
مما سبق نستخلص أن المستخلص المائي لأوراق نبات المخيط بجرعة . والالكتروليت في السيرم
.مل جرام لكل كيلوجرام لها تأثير سام في جرزان وستر البيضاء 400
1
Introduction
Boscia senegalensis or Aizen, is a member of the family Capparaceae. The plant
originated from West Africa. Still a traditional food plant in Africa, this little-known
fruit has potential to improve nutrition, boost food security, foster rural development
and support sustainable land care ( NRC , 2008).
Synonyms are Porrdia Senegalensis (pers)-and Boscia octandra ( Hochste
Rodlk) The local name in Sudan ,Mukheit Umnkeit and krusan and widely spread in
North kordofan and Darfour (ELgazali etal .,1987).
Mukheit or Aizens are not fruit crops in normal sense. It is the combination of
foods and useful qualities that makes them important. The species produces enough
different products to sustain human life almost by itself. In at least a dozen countries,
at times people virtually live off Aizen fruits, Aizen seeds, Aizen leaves and berries
are commercially available in many parts northern Nigeria and Sudan as good con-
diment for soups in times of scarcity ( NRC , 2008).
This plant has a lot of uses, the leaves are traditionally used in west Africa in
cereal protection against pathogens, Pharmacologic application and food processing
(Dicko etal,2001).
In Sudan whole plant use as anthelimentic were as the emulsion of leaves used as an
eye wash ( ELgazali etal ., 1997).
2
The objectives :
Because of different uses of Boscia senegalensis, this study was aimed to evaluate
the effect of Boscia senegalensis on certain biochemical parameter in Wister
albino rats such as:
1-The effect of Boscia senegalensis leaves water extract on serum enzymes.
2- The effect of Boscia senegalensis leaves water extract on blood contents.
3- The effect of Boscia senegalensis leaves water extract on serum amino
acids composition.
4- The effect of Boscia senegalensis leaves water extract on serum electrolytes.
3
Chapter One
Literature Review
1. 1 Medicinal plant
People have known the use of medicinal plants since ancient times. These
plants have been used for the treatment of various diseases worldwide, because of
ready availability, their low cost of production and less toxic action compared to
those of synthetic compounds (Asima and Pkrashi, 1995).
Africa is a continent endowed with an enormous wealth of plant resources over
5.000 distinct species are known to occur in the forest region most of them have been
used for several countries in traditional medicine (Maurice , 1993).
In Sudan, numerous plants or plant products are commonly used by rural and ur-
ban citizen for the treatment of a wide variety of condition, often without prior re-
search to prove their claim (Bakhiet, 1995; Omer et al., 1992 and Ahmed,
1988).
4
1.2 Boscia senegalensis (Pers) Lam. ex Poiret
1.2.1 Taxonomy of Boscia senegalensis:
Species Boscia senegalensis (Pers) Lam. ex Poiret
1.2.2 Common names
Aizen (sometimes spelled ayzen) is a Berber word and is the one most com-
monly used in the literature dealing with West Africa. Other names include mandiar-
ha (Berber); mokheit, mukheit, umkheit (all Arabic), bere (Bambara); ngigili (Fula-
ni).Other common names for the fruit include dilo (Hausa); bokkhelli and
Kingdom Planate – Plants
Subkingdom Tracheobionta – Vascular plants
Superdivision Spermatophyta – Seed plants
Division Magnoliophyta – Flowering plants
Class Magnoliopsida – Dicotyledons
Subclass Dilleniidae
Order Capparales
Family Capparaceae – Caper family
Genus Boscia Lam. – boscia
5
kursan (hant, tadent, tadomet (Tamachek); harrenya (Sonrai); nabedega (More); and
nkiandam and diendoum(Wolof)(NRC,2008).
1.2.3 Description of B.senegalensis:
Shrubs or small trees, up to 3 m high with stiff grey branches. leaves are al-
ternative,cariaceous,petiolate ; laminas oblong-ellaptic to obovate, 3.8-10x1.7-4.9cm,
apex apiculate or mucronate,base cuneate,margin entire ; petioles 0.5-1cm long. Inflo-
rescences dense corymbs,, peduncles up to 3cm long ;pedicels 2-3 cm long,gynophores
2-4 mm long .Flowers greenish. Fruits drupe,globose, warted up to 1.3cm long ,pale
yellow when ripe, 1-2seeded (Elghazali etal .,1994).
6
Figure1: Boscia senegalensis (flowering plant)
7
1.2.4 Habitat and Distribution
Boscia senegalensis (Pers.) Lam. ex Poiret: is distributed south of 16 N°
(Andrews, 1950).
The aizen occurs across area that in recent decades has faced more hunger
than any other in the world—the vast swath of Sahel and Sahara savannas stretching
from Mauritania, Senegal, and Mali all the way to southeastern Egypt, Sudan, Ethi-
opia, Somalia, and Kenya (NRS,2008).
This plant’s endurance is remarkable. It tolerates temperatures as high as
45°C, a level not rare in its habitat. It occupies most types of arid-land environment:
stony slopes, sand dunes, and cracking-clay plains, just for starters. It often occurs in
desiccated, barren, hard, and even fire-scorched sites. As to soils, they are usually
poor, sandy, rocky, worn-out laterite, orclay. Commonly it sprouts directly out of
termite mounds. And it survives in areas receiving as little as 100 mm annual rain-
fall, although it grows best where there is at least 250 mm. Contributing to the
plant’s built-in drought tolerance is its remarkable leaf structure the cuticle is up to
20 microns thick, the stomata are sunk in deep cavities, and each stomate has thick-
ened walls and a protective armoring of papillae ( Killian , 1937).
8
Figure2: Boscia Senegalensis (leaves & fruit )
9
1.2.5 Constituents of B. Senegalensis
The genus has been shown to elaborate several flavonoids
(Walter and Sequin, 1990).
Sesquiterpenes and their glycosides (Pauli etal,1990), sulfur compound
(Kjaer etal., 1973), and lipid (Grindley, 1948).
Leaves constitute choline and sterols (β-sisterol, campesterol and stigmastrol)
as well as aliphatic alcohole (predominantly C30,C34,C38),carbohydrates and four
glycosinolates of unknown structure could be detected ( Kerharo and Adam,1974).
Three of glucosinolate from leave as methyl and 2propylisothiocyanate and in trace
amount 2-butylisothiocynate (Kjaer etal., 1973). Proto alkaloid Lstachydrine and
3hydroxy from leave sample from Senegal (Delaveau etal., 1973).
Root sample from Sudan give a positive reaction for sterol, triterpenes a nega-
tive reaction alkaloid cardilenpolides, tannin, saponin ,flavonoids and quinine
(ELkheir and Salih , 1980).
Saponine was detected in leave sample from Niger, alkaloid ,tannins, quinines
and flavonoids were not present ( Baoua et al,1976).
Methyl isothiocyanate which is liberated from a glucosinolate precursor; gluco-
capparin found in the fruits and leaves (Seck, et al. 1993).
10
1.2.6 Nutritional value
Detailed nutritional analyses seem unavailable, but the fruits are reportedly rich
in calcium, phosphorus, iron, and B vitamins. They are also said to contain a little
protein (NRC, 2008).
Seeds of B. senegalensis ( dilo in Niger) Contained 70mg/100g from essen-
tial fatty acid, linolic acid.Ca 29mg/100 g dry Wt Mg 4.2/100g and traces copper se-
lenium manganese. Zinc Iron however were presented at relatively high level ,(6.0
and 5.3mg/100 dry wit) respectively .the chemical composition of dilo harvested in
Niger differs significantly from that of B. senegalensis seeds grown in Sudan.
(Kim and Pastuszyn ,1997).
The nutritional value of seeds of mukheit (Boscia senegalensis (Pers)
Lam ex Poir) and maikah (Dobera roxburghi Planch) widely used as food in times of
famine in western Sudan have been investigated. The chemical composition of each
food before and after the traditional debittering process is reported. Both foods com-
pared favourably with the local staple cereals as regards the content of soluble car-
bohydrate and crude protein with values of 690 and 250 g kg-1 respectively for
mukheit debittered by soaking in water at ambient temperature and 8 ,150 g kg-1 re-
spectively for maikah debittered by boiling in water. The nutritional quality of pro-
tein in mukheit debittered by soaking in water at ambient temperature appeared simi-
lar to that of sorghum but was markedly enhanced if debittering was performed by
boiling, although the crude protein content of the food fell substantially during the
latter procedure (Salih and Nour ,1991).
11
Un- debittered : Protein (crude) = 29.3%. Oil = 0.7%. Ash = 3.5%. Fibre (crude) =
2.7%. Carbohydrate (soluble) (starch) = 39.5%; (sugars): Sucrose = 4.3%. D-glucose
= 0.2%. D-fructose = 0.7%. Amino acids (g [16g N]-1): Aspartic acid = 7.7g. Threo-
nine = 1.7g. Serine = 2.3g. Glutamic acid = 9.0g. Proline = 6.5g. Glycine = 3.5g.
Alanine = 3.2g. Valine = 4.5g. Cysteine (performic acid oxidation) = 1.3g. Methio-
nine (performic acid oxidation) = 1.8g. Isolelucine = 2.9g. Leucine = 7.0g. Tyrosine
= 2.3g. Histidine = 1.3g. Lysine = 1.5g. Arginine = 15.1g. Minerals: Sulphur =
2.20mg/kg-1 (dry). Potassium = 0.15%-1 (dry). Magnesium = 0.10% (dry). Calcium
= 0.14% (dry). Na = 0.01% (dry). K = 1.03mg/kg-% (dry). Zinc = 42mg/kg-1 (dry).
Iron = 10.5mg/kg-1 (dry). Manganese = 17mg/kg-1 (dry). Copper = 8mg/kg-1 (dry)
( Abdelmuti ,1991).
1.2.7 Uses of B. senegalensis
1.2.7.1 Nutritional uses
The mixing a suspension of powder prepared from the leaves or roots with
cereal flour (or porridge) results in sweet products (Salih and Nour , 1991).
The rationale behind the use of these leaves for the production of foods with
improved taste (through probably release of reducing sugars) has never been eluci-
dated (Dicko etal ., 2001).
According to a Sudanese famine-food specialist, Aizen was the “number one”
famine food during the horrific 1984 famine in the western Sudan. “It proved to be
people’s lifesaver,” he reports, “and it saved more lives than all the food aid that was
given. (Abdelmuti ,1991)
12
In famine times, people in rural Sudan rely on aizen. Typically, they collect the
fruits; sun-dry them, separate the pea-sized seeds, and remove the hard outer seed
coat. Seeds are then subjected to “sweetening” to remove bitter and possibly toxic
components.
The traditional procedure involves soaking for a week, changing the water every
day. Sometimes “kambo,” local potash prepared from plant ash, is added to aid the
debitteing. Less commonly, sweetening is conducted by boiling for 3 hours, with the
water changed hourly. After such treatment, the sun-dried “sweet” seeds are stored
until required, at which time they are boiled until soft, changing the water once dur-
ing the process. The resulting food is usually eaten with oil and salt. Alternatively,
seeds are ground to flour which is consumed in the form of kisra, flat thin bread
popular in Sudan or Asida, a local form of porridge. The taste of the final product
can be improved by blending with millet or sorghum flour (NRC, 2008).
1.2.7.2 Medicinal uses
The leaves of B. senegalensis are traditionally used for human and animal nu-
trition, protection of cereals against pathogens, and pharmacologic purposes
(Salih and Nour , 1991).
1.2.7.2.1 Traditional medicine
In senegal Boscia senegalensis used to treat colic without acting as a purga-
tive, and for sever Jaundice and feverish cholecyctitis. Also it used as antihelmentic
(Schistosoma) by decoction of leave ,for itching eye. Wolof treats cold with leave of
B senegalensis also for catarrh in horse; pulverise the leave and rub into the nose or
let animal inhale the vapor of the heated leave. A greul of leave or flour a medicine
13
or heamorrhoid is made by adding Salvadora persicaleave to that of B. senegalensis
(eat every day). In Cameroon: plant is used for chronic ulcer, syphilis , colic and
filariases .as a fumigation the leave are said to relive cough in horses. In Niger :
hausa women take the powder of leave during the first 7 days of having birth, also
use leaves powder or roots in the form of watery past to ulcer and eczema. the root
are considered to be a medication for male sexual weakness .for exhaustion and fati-
que the decoction of the above ground leave plant part is drunk .leave powder in
food is a cold medicine for horses and monkey.In Chad Bagirmi: wound and skin
rashes are treated with bark extract, tooth ache and gingivitis with root infusion
(mouth wash). In Sudan Kordofan province leave infusion is widely used medication
for ventral disease, inflamed eye are also bathed with it .Root prepared are used for
Jaundice. Root ,leave and bark are used as coagulating agent to clarify water .in west
of Sudan and blue Nile B senegalensis is considered as one of the potent plant for
treated ,turbid water .Water coagulation is believed to protect from disease like;
diarrhea ,gastro-intestile disorder ,gastric fever (Neuwinger,1996).
1.2.7.2.2 Recent medicine
1.2.7.2.2.1 Role against pathogen
B. senegalensis possesses antimicrobial and anti fungal activities
(Almagboul etal .,1988 ; Laurens, 1985).
It has been show to be effective uterine stimulation (Bullough etal., 1982).
The leave used in the preparation of malaria remedy and for the treatment of jaun-
dice, fungal infection and viral diseases ,it applied externally for wound .The fruits
14
and roots are used as aphrodisiac, and the roots decoction is used for stomach ache
and to facilitate labour (Maurice,1993).
Activities of a-amylase, B-amylase, exo-(1-3, 1-4)-B-D glucanase, and endo-
(1-3)-B-D-glucanase were detected in leaves of Boscia senegalensis (Dicko etal,
2001).
Synthesis of (1→3)-B-D-glucanases is enhanced in response to pathogen
infection or a biotic stress condition (Ryals etal ., 1996).
(1→3)-B-D-glucanse are associated with antitumor, antibacterial, anti coagulator,
and wound healing properties the soluble ones are the most active
(Bohn and BeMiller, 1995).
1.2.7.2.2.2 The effect on blood cells
Leaves contain the alkaloids L-stachydrine and hydroxy-3 stachydrine. Sta-
chydrine affects aggregation of Thrombocytes and shortens the bleeding time
(DFID etal., 2009).
1.2.7.2.2 .3 Anti inflammatory effect
Boscia senegalensis is a bush of African savannah, used in folk Medicine for the
treatment of articulary pain. We have tested the anti-inflammatory action of an
aqueous and alcoholic extract of leaves in rats , the aqueous and alcoholic leaves ex-
tract (400 mg/kg) . The aqueous and alcoholic extracts at dose of 400 mg/kg in-
hibited
respectively the development of oedema. The extract showed the presence of
15
alkaloids , saponosides, flavonoids and tannins on phytochemical screening. These
findings indicate that the leaves extracts of Boscia senegalensis contain anti-
inflammatory active principles for the acute inflammation treatment. Moreover,
these results justify the use of the leaves of Boscia senegalensis for the treatment of
many inflammatory diseases (Nongoniermsierm , 2007).
1.2.7.3 Pest control
The biocide activity of the leaves on insects has been justified by the presence
of volatile compounds such as methyl lisothiocyanate and mehylcyanide
(longoay etal., 1994).
Fresh ground leaves caused 100 percent mortality in adult C. maculatus within
24 hours and prevented egg-laying. Admixture of fresh whole leaves and dry leaf
powder was less effective, Acetone extract of fruits a glass desiccator caused 100 %
mortality in adult S. cereallela within 1.5 hours, the LT50 values for C. maculatus
and P. truncatus were 2.3 hours and 3.8 hours respectively ( Seck et al., 1993).
1.2.7. 4 Role in storage
The effect of hermetic storage alone or in combination with B. senegalensis has
been evaluated against Callosobruchus maculatus. Analysis of gas concentrations
within a 7-day period indicated that O2 declined from 19.2 to 2.3% and CO2 rose
from 1.2 to 22.8%. Prolonged storage durations increased adult mortality, signifi-
cantly increased the developmental time and induced 60–80% reduction in the F1
progeny. The use of hermetic storage in combination with B senegalensis fruits, at
16
1.2 g/l (flask volume) reduced the emergence of the cowpea beetle, while 2.4–4.8 g/l
completely inhibited the production of a new generation of C. maculates
(Seck et al., 1995).
1.2.7.4 Water clarification
Aizen contains natural coagulants. In Sudan, Niger, and Nigeria, for exam-
ple, bark, twigs, leaves, and roots are used to scavenge suspended and colloidal
compounds from unclean water (such as that from ponds churned up by storms or
from baobab-tree cisterns contaminated with soil). Normally the plant parts are
sliced up and placed on the water surface. Compounds leach out and catch the clay
and other particulates like magnets, causing them to clump and settle to the bottom.
It is reported that truly turbid water can be safely drunk after just a day of such
treatment. For even faster results, aizen branches are swirled in the water. Indeed,
certain Tuareg groups in the Sahara region fill sacks with aizen leaves and dunk
them into the muddy pools that comprise their only source for drinking. Following a
rare desert downpour they may also place these giant tea bags across ditches so that
the runoff clarifies itself as it oozes through
(NRC, 2008).
Boscia senegalensis is reduced turbidity of water by 94.26%,many factors were
effect the efficiency of plant ,such as the methods of coagulant ,the dose ,filtration
and extraction time (long contact time led to deterioration on water quality )
(ELgaddal , 1993).
17
1.2.8 Toxicity
The nature glycosinolate proved to be a source of anti thyroid drug; the inhibit
the organic binding of iodine in the thyroid gland, enlarge the thyroid and cause
goiter.β sisterol is it show a significant anti inflammatory and antipyretic activity
similar to acetyl salysilic acid by oral administration. Now it fails to induce gastric
ulceration or it is analgesic activity (Gupta et al., 1980).
β sisterol posses anti bacterial effect (Chi and choi , 1985). In laboratory animal
β sisterol in female may cause abortion (Burck etal .,1982; Pakarashi and Basak
1976),it can exert oestorogenic effect, In male β sisterol produced an antifertility ef-
fect (it decreases the testicular weight and sperm concentration significantly with
high doses ,but also after long term treatment with a low dose (Malani and Vanitha
Kumari,1991).
Phytosterol fraction it is used for hyper cholestremia for avoid gallstones, it com-
bination with chenodeoxy-cholic acid for cholelitholysis;it cause increased excretion
of cholesterol (Neuwinger,1996).
Leafless twigs contain glucosinalates, which can hydrolyze to mustard oils, which
are highly toxic and irritant to mucous membranes (DFID etal., 2009).
18
Chapter Two
Materials and Methods
This work has been conducted in the Department of Pharmacology and toxicology in
Medicinal and Aromatic Plants Research Institute (MAPRI), National Center
for Research, Khartoum and Research Laboratory Unit, Khartoum Teaching Hospit-
al, and Central laboratory.
2.1 Materials:
2.1.1 Experimental animals:
Healthy Wister albino rats males obtained from the National Center for research
were used in this study. The rats were housed identically in stainless steel cages in a
room under suitable conditions. Twenty four rats were divided into three groups on
the basis of body weight of each group and average weight of rat in each group was
75g.
2.1.2 Plant material:
Boscia senegalensis leaves were collected from western of Sudan (Om Rawa-
bah) .The leaves of B sengalensis authenticated by botanists in herbarium of Medi-
cinal and Aromatic Plants Research Institute, Khartoum.
19
2.1.2.1 Preparation of the aqueous extract:
500 ml of hot distilled water was added to the 100 g of each plant sample and left
till cooled down with continuous stirring at room temperatures. Extract was then fil-
tered and stored in a deep freezer till freezed. Freezed extract was freezed-dried us-
ing freezdrier (Trivac, USA) till all of the ice was removed out and powdered extract
was obtained. Yield percentage was calculated (Harborne, 1984).
1500 ml of hot distilled water was added to the 250 g of leaves of B. senegalensis
sample and 29g were prepared. .
2.1.3 Experimental design:
The groups were designed as A, Band C and eight rats in each group.
-The rats of group A were kept as normal control.
-The rats of groups B, C were served as treated animals.
2.1.4 Feeding programme:
Each group was kept in a cage and was supplied with water and basal diet of
which each kilogram was composed of 725g meat and 240g flour plus 1g salt. The
feed was available at the rate of 35g per day in each cage. The three groups were fed
as follow:
Group A: served as control, received basal diet ( BD) only.
Group B: received (BD) and orally 200 mg/kg body weight (BWt) B Senegalensis's
leaves water extract.
20
Group C: received BD and orally 400 mg/kg (BWt) Boscia senegalensis leave wa-
ter extract.
2.1.5 Instruments:
-Finn pipette , and digital micro pipette , was used for pipetting of serum sample.
-Capillary tubes
-Anti coagulant blood containers were used for blood collection for complete
hemogram.
-Sterile plane containers were used for keeping serum.
2.1.6 Sample collection:
Blood sample were collected from all group (4 from each one by using capillary
tube) to determine complete heamogram. After 15 days rats was slaughtered and the
blood was been collected on plain containers:
1- The blood was centrifuged at 5000 rpm for 10 minutes. Then serum were
separated and used to estimate some biochemical parameters.
2- Blood for heamatology.
3-Some of rats were examined to identify gross lesions and specimens of the liver,
Kidneys, heart, spleen and intestines which were fixed in 10% neutral buffered for-
malin and processed for histopathology.
21
2.2 Methods:
2.2.1 Laboratory analysis:
2.2.2. Haematological methods
Blood samples were collected from optimal vein or by slaughtering animals
and immediately placed into dry -cleaned tubes containing Ethylene Diamine Tetra
acetic Acid (EDTA) as an anticoagulant. The hematological analysis was done by
the mean of Sysmex -KX-21 N. Haematological parameters: Haemoglobin (Hb), Red
blood cells (RBCs),White blood cells (WBCs), Mean corpuscular haemoglobin con-
centration (MCV) ,and (MCHC) were determined.
Sysmex-Kx-21, Japan, 1999:
This Analyzer is an automatic multi-parameter blood cell counter for in vitro
diagnosis use in clinical laboratories. The Sysmex KX-21 processes approximately
60 samples/hour and are displayed on the LCD screen, the particle distribution
curves of WBC, RBCs, differential WBCs counts and platelets count along with data
of other parameters.
CD Analyzer detection method:
Blood sample is aspirated, measured to determine volume, diluted at specified
ratio, with transducer use. The transducer chamber has minute hole called the aper-
ture, on both sides of it, there are electrodes between which direct current flows.
Blood cell suspended and diluted sample passes through the aperture causing direct
current resistant to change between the electrodes as direct resistance changes, the
22
blood size is detected as electric pulses. The parameters measured were Hb, RBCs
and erythrocyte series, MCV, MCH and MCHC.
2.2.3 Sero biochemical methods:
Blood samples were collected and allowed to clot and sera were separated by centri-
fugation at 5000 r.p.m for 10 min and stored at -20°C until analyzed.
A-Some of sera parameters were estimated using the Roche diagnostic Hitachi 902
Analyzer. In Research and Laboratory Unit, Khartoum Teaching hospital .
B- Other sera were estimated using The SYKAM system The Amino Acid Analyzer
S433, Done by The Central laboratory.
Roche diagnostic/Hitachi 902 analyzer:
It is an analyzer to report test results on various body fluid samples for wide
range of analysis. It is fully automated, computerized, performs potentiometric and
photometric assays, and includes analytical processing unit and luminance crystal dis-
play (LCD) touch screen, with a standard printer to print the results. The analyzer is
characterized by doing 200 photometric tests/ hour, and refrigerated storage for 40
reagent containers, as well as it has end point, and kinetic and isoenzymes reactions.
2.2.4 Determination of alkaline phosphatase ALP:
Principles:
Under alkaline condition, p-nitrophenol is converted to 4-nitrophenoxide, which
develop a very intense yellow color. The intensity is proportional to the activity of
23
alkaline phosphtase.
p-nitrophenyl phosphate + H2O alkaline phosphatase phosphate + p-nitrophenol
Reagents:
Reagents1:
2-Amino-2-Methyl-1-Propanol 0.9 mol/l
pH 10.4
Magnesium acetate 1.6mmol/l
Zinc sulphate 0.4 mmol/l
EDTA 2 mmol/1
Reagents2:
P-nitrophenyl phosphate 16 mmol/l
Procedure:
The analyzer automatically added an equal quantity from sample, R1 and R2
to the reaction.
Calculations:
The analyzer automatically calculated the analytic concentration of each sam-
ple. The result appeared directly on the screen of the diagnostic machine at the end
of the reaction between the reagents and samples.
24
2.2.5 Determination of Alanine amino transferase (ALT):
Principles:
ALT catalyses the transformation of L-alanine and 2-oxoglutarate at optimal pH .
The pyruvate released in the reaction is transformed by Lactate dehydrogenase
(LDH) in the presence of NADH/NAD coenzyme to L-lactate .While the
NADH/NAD oxidoreductive process shows a decrease in absorbance at 340nm .The
change in absorbance correlates with serum ALT activity.
L-Alanine + α-Ketoglutarate ALT pyruvate-L-Glutamate
Pyruvate + NADH LDH L-Lactate-NAD
Reagents:
Reagents (R1)
Tris buffer, pH: 7.50 110 mmol/L
L-Alanine 600 mmol/L
LDH 1500u/L
NADH 240 mmol/L
Reagents (R2)
α-Ketoglutarate 16 mmol/L
25
Procedure:
The analyzer automatically added an equal quantity from sample, R1 and R2
to the reaction.
Calculations:
The analyzer automatically calculated the analytic concentration of each sample.
The result appeared directly on the screen of the diagnostic machine at the end of the
reaction between the reagents and samples.
2.2.6 Determination of Aspartate amino transferase (AST):
Two substrate participate in the reaction catalyzed by AST .L-aspartate and
oxolglutarate (With the help of NADH coenzyme) .Malate dehydrogenase (MDH)
contained in the reagent catalyses the transformation of oxalacetate released in the
first reaction .The oxido-reductive process of NADH/NAD is indicated by a decrease
in absorbance at 340 nm.The lactate dehydrogenase (LDH) in the medium counte-
racts the disturbing effect of pyruvate contained in the sample.
L-Aspartate + α-Ketoglutarate AST L-glutamate -Oxalacetate
Oxalacetate + NADH MDH L-Malate -NAD
Reagents:
Reagents (R1)
Tris buffer, pH: 7.80 88 mmol/L
26
L-Aspartate 260 mmol/L
LDH 1500 u/L
MDH 900 u/L
NADH 0.24 mmol/L
Reagents (R2)
α-Ketoglutarate 12 mmol/L
Procedure:
The analyzer automatically added an equal quantity from sample, R1 and R2 to
the reaction.
Calculations:
The analyzer automatically calculated the analytic concentration of each sample.
The result appeared directly on the screen of the diagnostic machine at the end of the
reaction between the reagents and samples.
2.2.7 Determination of Creatinine:
Principle:
Creatinine under alkaline conditions reacts with picrate ions forming a reddish com-
plex. The formation rate of the complex measured through the increase of absor-
bance in a prefixed interval of time is proportional to the concentration of Creatinine
in sample.
27
Reagents:
Picric acid 40 mmol/l
Potassium ferricyanide 40µmol/l
Phosphate buffer 300mmol/l
Creatinine Standard 177mmol/l
Procedure:
The analyzer automatically added an equal quantity from sample, R1 and R2
to the reaction.
Calculations:
The analyzer automatically calculated the analytic concentration of each sample.
The result appeared directly on the screen of the diagnostic machine at the end of the
reaction between the reagents and samples.
2.2.8 Determination of urea:
Urea concentration in serum measured using enzymatic colorimetric method
described by Monica (1992).
28
Principle:
Urea +2 H2O Urease 2 NH4 + 2HCO3
NH4 +2-Oxoglutrate + NADH GLDH L-Glutamate + NAD +H2O
Reagents:
Reagents1:
Tris buffer 120 mmol/l
pH 7.8
2- Oxoglutrate 7 mmol/l
ADP 0.6 mmol/l
Urea 1 mmol/l
Urease > 5 KU/l
Glutamate dehydrogenase > 1 KU/l
Reagents2:
NADH 0.25 mmol/l
Procedure:
The analyzer automatically added an equal quantity from sample, R1 and R2
to the reaction.
29
Calculations:
The analyzer automatically calculated the analytic concentration of each sam-
ple. The result appeared directly on the screen of the diagnostic machine at the end
of the reaction between the reagents and samples.
2.2.9.1 Measurement of Serum Sodium & Potassium
Sodium:
Serum sodium was determined by flame-photometry (Evans Electro selenium
Ltd., England ) as described by ( Varley ,1967). The method is based on passing un-
der controlled conditions, diluted serum (1: 100) as a very fine spray in the air supply
to a burner where the solution evaporates and the salt dissociates to give neutral
atoms. Light of characteristic wavelengths was emitted and passed through aspecific
filler for sodium on to a selenium cell and the amount of current produced was read
on a galvanometer. Readings were recorded and values were estimated in mEq/ liter
as follows:
Concentration (Meq/l) = T- sample X 140
S- sample
The values were then converted to mg/dl.
Potassium:
The method described by (Varley ,1967) for the determination of serum po-
tassium is based on the same principle of flame-photometry for serum sodium. The
sensitivity of the instrument was varied in order to use the same dilution of serum
(1:100) for both sodium and potassium.
30
Light of characteristic wavelengths was emitted and passed through specific
filter for potassium on to a selenium cell and the amount of current produced was
measured.
Changes in galvanometer readings were recorded and values were estimated
in meq/l as follows:
Concentration (Meq/l) = T- sample X 5
S- Standard
The values were there converted to mg/dl.
2.2.10 Determination of serum amino acids: Analyzed by Amino Acid Analyzer
S433 (Central laboratory):
2.2.10.1 The Amino Acid Analyzer S433:
It is an analyzer to report test results on physiological fluid samples and hydro-
lyzed sample to determine amino acid. It is fully automated, computerized, and
includes analytical processing unit and luminance crystal display (LCD) touch
screen, with a standard printer to print the results.
It put together from 4 modules: The sample Injector 5200 controls the complete
system and gives the signal to the Amino Acid Reaction Module S4300 and the Sol-
vent Delivery System S2100 for starting installed programs.
Preparation of sample:
1-prepared 20% solution of 5- Sulfosalysilic acid
31
2-Added 100 of 20% solution of 5-sulfosalysilic acid to 900ml of serum sample.
3-Incubated at 4C° for half an hour.
4-Centerfugeated 13000pmfor10-15min
5-Took superament and diluted by sample diluting buffer .The precision and accura-
cy of all methods used in this study were checked each time a batch was analyzed by
including commercially prepared control sera.
Reagent
The ninhydrin reagent the most commonly used for amino acid determination.
Usually consist the following:
1-Crystalline ninhydrin
2-An organic solvent to dissolve the hydrin
3- Strong buffer solution to reach the optimum PH value for the ninhydrin
reaction.
2.2.11 Histopathological methods:
Tissue specimens collected from animals liver, kidney, heart, lung, spleen and
intestine after dead or slaughtered were immediately fixed in 10% buffered formalin
(Sodium hydrogen 6.5 gm/L and sodium dihydrogen 4 gm/L) then embedded in pa-
raffin wax, sectioned at 5µ and stained routinely with Haematoxylin and Eosin
(H&E) using (Drury and Wallington ,1980) method.
32
2.2.12 Quality control:
The precision and accuracy of all methods used in this study were checked each
time; a batch was analyzed by including commercially prepared control sera.
2.2.13 Statistical analysis
According to complete randomized design the rats were divided into three
groups (A, B and C) each group contain 8 rats for similar body weight.
Mean values obtained in blood and serum parameters were statistically verified
using t-test. All means were compared at probability level less than 5%
(Mendehall, 1971).
Chapter three
The Results
33
3.1 The effects of oral administration of Boscia senegalensis water extract on
blood contents (Hb, RBCs ,WBCs ,Platelets, MCV,MCH and MCHC).
3.1.1 After one week of treatment:
B .senegalensis leaves water extract on two different concentrations (B and C)
when administrated orally to normal rats had no significant effect either on Hb,
Platelets , RBCs , WBCs , MCV,MCH or MCHC .But, all of them had been mild de-
creased (in contrast WBC which was increased) when compared with control. As
shown in table 1.
Table 1The effects of oral administration of Boscia senegalensis water extract on blood contents (Hb, , RBC , WBCs ,Platelets ,MCV,MCH and MCHC). After one week of treatment: Parameter
Group A Group B Group C
WBC µl 7.2±0.8297 7.8±0.5 9.590±1.79Hb g/dl 155±5.9 155±3.5 152.50±2.179RBCs µl 9.31±0.48 9.31±0.11 9.935±0.458Plt µl 1170±107.21 1042±19.37 1077±59.545 MCV fL 64.5±1.04 64.7±063 64.5±1.04 MCH Pg 16.70±0.40 16.63±.2658 15.425±.6102MCHC g/dL 259.25±2.72 256.50±3.97 239±6.9Data are expressed as Means ±standard error * statistical difference p<0.05 Group A: Normal control rats Group B: Normal rats administrated with( 200mg/kg) from Boscia senegalensis leaves water extract . Group C: Normal rats administrated with (400mg/kg) from Boscia senegalensis leaves water extract .
3.1.2 After three weeks at the end of experiment:
34
B. senegalensis water extract on the different two concentrations (B and C)
when administrated orally to normal rats had significant effect on Hb and RBCs ,
there were an increase on Hb and Decrease on RBCs when compared with control
.As shown in table 2.
Table 2‐ The effects of oral administration of Boscia senegalensis water extract on blood contents (Hb, RBCs,WBCs ,Platlets, MCV,MCH and MCHC). After three week of treatment :
Parameter Group A Group B Group C
WBCs µl 14.8±3.398 14.4750±2.61 10.1±1.84872
Hb g/dL 7.26±0.204 15.35±0.395* 12.2±1.330*
RBCs µl 13.7±0.218 7.598±02153* 6.09±06414*
Plt µl 811±177.8 797.50±40.590 561±95.496
MCV fL 65±2.131 65±0.707 65.33±0.667
MCH pg 20.05±0.4975 20.425±0.45758 19.30±0.7506
MCHC g/dL 30.85±0.7837 31.25±0.4406 26.96±3.5825
Data are expressed as Means ±standard error
* statistical difference p<0.05
Group A: Normal control rats
Group B: Normal rats administrated with (200mg/kg) from B. senegalensis leaves water extract .
Group C: Normal rats administrated with (400mg/kg) from B. senegalensis leaves water extract
35
3.2 The effects of oral administration of B. senegalensis leaves water extract on
serum AST, ALT , ALP Enzymes ,Urea and Creatinine :
3.2.1 After two weeks of experiment:
B. senegalensis leaves water extract in the different two concentrations when ad-
ministrated orally to normal rats had no significant effect either on serum AST, ALT,
ALP concentration or on serum Urea and Creatinine on treated groups (B and C) ,
but ALT and AST concentration on (B and C) had been numerically increased when
compared with control (group A).However Urea and Creatinine had been decreased.
As shown in table 3.
Table 3‐ The effects of oral administration of B. senegalensis water ex
tract on serum AST, ALT ,ALP Enzymes ,Urea and creatinine ,after 2weeks
of treatment: Parameter Group A Group B Group C
ALT U/L 37±2.3 38±2.0 41±2.6
AST U/L 127±4.6 155±11.6 158±5.3
AlP U/L 256±38 150±23 212±21
urea mg/dl 36.7±2.6 34.5±2.8 4.6±2.3
Creatinine
mg/dl
0.57±0.02 0.55±0.02 0.52±0.02
Data are expressed as mean ±standard error Mean value significant having star (* ) supscripts within the same row ,statistical difference p<0.05 Group A: Normal control rats Group B: Normal rats administrated with (200mg/kg) from Boscia senegalensis leaves water extract . Group C: Normal rats administrated with (400mg/kg )from Boscia senegalensis leaves water extract
36
3.2.2 After three weeks of experiment:
B. senegalensis water extract in the different two concentrations when administrated
orally to normal rats had no significant effect either on serum AST, ALT , ALP con-
centration or on serum urea and Creatinine on treated groups(B and C) ,but ALP,
ALT ,AST and urea concentration OF (group B) had been numerically decreased
when compared with control (group A) . How ever, creatinine had been increased.
By contrast on group C, ALP, ALT and AST had been increased. As shown in table.
Table 4‐ The effects of oral administration of B. senegalensis water extract on serum AST, ALT ,ALP Enzymes ,Urea and creatinine :After three weeks:
paramater Group A Group B Group C
ALT U/L 42.75±6.8 41.50±2.363 46.33±4.177
AST U/L 183.50±9.179 157.25±10.0 199±8.353
AlP U/L 174±24.028 142±35.267 225.33±36.375
urea mg/dl 43.25±5.154 42.5±5.1 43.0±2.517
creatinine mg/dl 0.70±0.04 0.75±0.06 0.70±0.0577
Data are expressed as Means ±standard error
* statistical difference p<0.05
Group A: Normal control rats
Group B: Normal rats administrated with (200mg/kg) from Boscia senegalensis
leaves water extract .
Group C: Normal rats administrated with (400mg/kg ) from Boscia senegalensis
leaves water extract .
37
3.3 The effects of oral administration of B. senegalensis water extract on serum
electrolytes:
3.3.1 The effects of oral administration of B. senegalensis water extract on
serum electrolyte after two weeks:
B. senegalensis water's extract in the different two concentrations when(B and C)
administrated orally to normal rats had no significant effect either on serum sodium
or potassium ,but either on B or C group Sodium had been numerically increased
,Potassium increased when compared with control (group A) As shown in table5.
Table 5‐ The effects of oral administration of B. senegalensis water extract
on serum electrolytes: after 2weeks of treatment:
Parameter Group A Group B Group C
SODIUM
mmol/l
125.75±2.250 127.25±2.213 129.75±1.109
POTASSIUM
mmol/l
5.650±0.2723 5.850±0.1658 6.075±0.3614
Data are expressed as Means ±standard error
* statistical difference p<0.05
Group A: Normal control rats
Group B: Normal rats administrated with (200mg/kg) from Boscia senegalensis
leaves water extract .
Group C: Normal rats administrated with ( 400mg/kg ) from Boscia senegalen
sis leaves water extract .
38
3.3.2 The effects of oral administration of B. senegalensis water's extract on
serum electrolyte after three weeks:
B. senegalensis water's extract in the different two concentrations (B and C)
when administrated orally to normal rats had no significant effect either on serum
Sodium or Potassium , but all of them Sodium had been numerically increased and
Potassium decreased when compared with control (group A). As shown in table 6.
Table 6 The effects of oral administration of B. senegalensis water extract
on serum electrolytes: after3weeks of treatment:
Parameter
Group A Group B Group C
SODIUM
mmol/l
136.50±4.735 137.00±2.198 146.67±4.667
POTASSIUM
mmol/l
6.65±0.171 6.48±0.125 6.33±0.267
Data are expressed as Means ±standard error
* statistical difference p<0.05
Group A: Normal control rats
Group B: Normal rats administrated with (200mg/kg) from B. senegalensis
leaves water extract .Group C: Normal rats administrated with (400mg
3.4 The effects of oral administration of Boscia senegalensis leaves water
extract on serum amino acids on normal rats:
39
3.4.1 The effects of oral administration of Boscia senegalensis leaves water ex-
tract on serum amino acid on normal rats after two weeks:
The effects of oral administration of Boscia senegalensis leaves water extract on
serum amino acid on normal rats ا :treated rats(B and C) , serum contained a-amino
butyric acid and Glutamic acid when compared with group A (control),.Taurine level
showed an increase in group B and mild decreased on C when compared with control
A. Spartic acid numerically decreased on treated rats (B and C) when compared
with control A. Therionine increased on treated rats (B and C) but elevation on B
more than C. Serine numerically decreased on group C ,Sparagen showed no
changes on C but an increase on group B. Glycine showed an increase on B . Alanine
showed an increase on group C and decreased on B. Citruline decrease on B. Ami-
nobutric acid showed an increase on group B more than C .Valine numerically de-
creased on C. Cystine no changes .Methionine numerically decreased on C. Isoleu-
sine mild increased on B. leucine decreased on C and increased on B .Tyrosine in-
creased on treated rats (B and C).Phenylalanine increased on B. Homocyctine mild
decreased on treated rats B&C .Histidine mild increased on treated rats (B and C).
Methyl histidine mild increased on B and decreased on C .Tryptophan mild de-
creased on C .Ornithin numericly decreased on B.lycine an increase on treated rats
.Argenine increased on B. Hydroxyproline decreased on B , Proline decreased
on two treated rats when compared with group A (Control) .As shown in tables 7,8
and 9. And figures 3, 4 and 5.
Reten . Time{min} Amount {umol\l} Amount [%] Compound Name
40
Table7- Determination of serum amino acids composition on normal rats
group A (Control) after 2 wee
1 5.877 89.359 3.5 Taurin 2 8.531 697.711 27.1 Urea 3 19.331 11.477 0.4 Aspatric acid 4 26.149 104.388 4.1 Threonine 5 28.301 152.023 5.9 Serine 6 31.397 25.116 1.0 Asparigine 46.595 200.020 7.8 Glycine 8 48.691 245.300 9.5 Alanine 9 50.520 32.782 1.3 Citruline 10 56.203 65.046 2.5 Valine 11 58.888 5.630 0.2 Cystine 12 61.648 20.342 0.8 Methionine 13 64.756 39.353 1.5 Isoleucine 14 66.339 68.304 2.7 Leucine 15 69.971 15,277 0.6 Tyrosine 16 73.328 27.249 1.1 Phenylealanine 17 75.157 8.147 0.3 Homocystine; 18 76.123 20.427 0.8 Histidine 19 77.008 1.943 0.1 1-Methylhistdine 20 79.405 27.273 1.1 Tryptophane 21 80.349 66.989 2.6 Ornthine 22 81.947 107.719 4.2 Lysine 23 83.941 480.335 8.6 Ammonia 24 90.653 63.563 2.5 Argenine total 2576.351 100.0
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 22.021 22.681 16.1 HYdroxy-prolline 2 43.544 118.214 83.9 Proline Total 140.895 100.0
41
Figure 3: Determination of serum amino acids composition on normal rats group A af
ter two weeks of treatments
42
Table8- Determination of serum amino acids composition group B after 2 week
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
43
1 5.947 117.936 3.5 Taurin 2 8.621 1318.194 39.0 Urea 3 19.563 10.986 0.3 Aspatric acid 4 26.427 140.794 4.2 Threonine 5 28.565 149.289 4.4 Serine 6 31.512 40.519 1.2 Asparigine 33.384 69.439 2.1 Gulatamic acid 8 46.763 229.949 6.8 Glycine 9 48.923 206.846 6.1 Alanine 10 23.176 0.7 Citruline 11 50.805 4.233 0.1 a-Aminobutyric Acid 12 52.973 68.886 2.0 Valine 13 58.997 4.615 0.1 Cystine 14 61.741 24.432 0.7 Methionine 15 64.813 50.398 1.5 Isoleucine 16 66.400 78.988 2.3 Leucine 17 70.080 24.342 0.7 Tyrosine 18 73.344 38.348 1.1 Phenylealanine 19 75.096 5.681 0.2 Homocystine; 20 76.035 26.331 0.8 Histidine 21 76.920 3.048 0.1 1-Methylhistdine 22 79.360 28.847 0.9 Tryptophane 23 80.216 33.713 1.0 Ornthine 24 81.733 157.704 4.7 Lysine 83.757 442.283 13.1 Ammonia 90.355 83.382 2.5 Argenine total 3382.358 100.0
44
Group B: Normal rat administered with leaves water extract of B. senegalensis (200mg kg¯1)
Figure 4: Determination of serum amino acids composition on normal rats
group B after two weeks of treatments:
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 22.203 2.734 3.9 HYdroxy-prolline
2 43.632 68.069 96.1 Proline Total 70.803 100.0
45
Table 9 Determination of serum amino acids composition group C after 2 weeks OF treatment:
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
46
1 5.893 83.484 3.0 Taurin 2 8.603 900.897 32.3 Urea 3 19.939 7.389 0.3 Aspatric acid 4 26.509 99.555 3,6 Threonine 5 28.592 120.671 4.3 Serine 6 3.661 26.990 1.0 ASparigine 7 33.608 50.284 1.8 Glutamic acid… 8 46.595 203.261 7.3 Glycine 9 48.717 285.855 10.2 Alanine 10 50.776 36.446 1.3 Citruline 11 52.933 0.179 0.0 a‐Aminobutyric 12 56.256 56.851 2.0 Valine 13 58.872 2.600 0.1 Cystine 14 61.741 16.282 0.6 Methionine 15 64.800 38.319 1.4 Isoleucine 16 66.451 56.567 2.0 Leucine 17 70.237 20.976 0.8 Tyrosine 18 73.400 25.628 0.9 Phenylealanine 19 75.056 3.998 0.1 Homocystine 20 76.024 24.943 0.9 Histidine 21 76.659 0.727 0.0 1‐Methlhistidine 22 79.381 22.375 0.8 Tryptophane.. 23 80.227 65.079 2.3 Ornthine 24 81.739 161.057 5.8 Lysine 25 83.717 418.970 15.0 Ammonia 26 90.632 60.040 2.2 Argenine total 2789.421 100.0
47
Group C: Normal rat administered water extract of B. senegalensis (400mg kg¯1)
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 22.427 17.662 19.1 HYdroxy‐prolline
2 43.579 74.914 80.9 Proline total 92.575 100.0
48
Figure 5: Determination of serum amino acids composition on normal rats
group C after two weeks of treatments:
49
3.4.2 The effects of oral administration of Boscia senegalensis leaves water
extract on serum amino acids on normal rats three weeks:
No sparagene was present on (group C) and no a-minobutyric acid on B
group when compare with group A(control) Taurine level showed mild decrease in
group B and numerically decreased on C when compared with control A. Spartic ac-
id mild decreased on treated rats(B and C) when compared with control A. Therio-
nine increased on B and decreased on C . .Serine numerically decreased on group C.
Glutamic acid increased on group C .Glycine showed an increase on B .Alanine
showed an increase on group C and decreased on B. Citruline numerically decreased
on B . Valine mild decreased on B and mild increased on C. Cystine numerically de-
creased on B and increased on C.
Methionine no change. Isoleusine mild increased on B and mild decreased on C.
leucine numerically increased on B and decreased on C .Tyrosine numerically in-
creased on treated rats (B and C).Phenylalanine increased on B.Homocyctine no
changes on treated rats (B and C) .Histidine numerically increased on treated rats
(B&C),Methyl histidine no found on C only on B.
Tryptophan mild increased on C no change on B .Ornithin numerically increased on
treated rats (B and C) . lycine an increase on treated rats .Argenine numerically in-
creased on B and decreased on C .Hydroxyproline had been decreased on B group
only and so for Proline on (B and C) when compared with group A (Control) . as
shown in table 10,11 and 12. And figures 6,7 and 8.
50
Table10-Determination of serum amino acids composition : After three weeks of treatment group A (Control):
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 5.896 78.376 3.1 Taurin 2 8.579 1023.102 40.7 Urea 3 19.915 3.114 0.1 Aspatric acid 4 26.472 78.101 3.1 Threonine 5 28.611 113.462 4.5 Serine 6 31.637 14.191 0.6 Asparigine 7 33.499 46.396 1.8 Glutamic acid 8 46.653 146.165 5.8 Glycine 9 48.787 266.241 10.6 Alanine 10 50.691 23.377 0.9 Citruline 11 52.904 2.317 0.1 a-Aminobutyric
Acid 12 56.323 47.762 1.9 Valine 13 58.925 3.369 0.1 Cystine 14 61.699 14.754 0.6 Methionine 15 64.829 33.293 1.3 Isoleucine 16 66.459 57.122 2.3 Leucine 17 70.123 8.290 0.3 Tyrosine 18 73.275 24.032 1.0 Phenylealanine 19 75.080 4.219 0.2 Homocystine; 20 76.048 13.217 0.5 Histidine 21 76.685 0.314 0.0 1-Methylhistdine 22 79.384 16.821 0.7 Tryptophane 23 80.259 47.282 1.9 Ornthine 24 81.741 66.027 2.6 Lysine 25 83.864 337.943 13.4 Ammonia 26 90.301 44.235 1.8 Argenine total 2513.520 100.0
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
51
1 22.403 17.188 12.7 HYdroxy‐
prolline 2 43.648 117.666 87.3 Proline Total 134.855 100.0
52
Figure 6: Determination of serum amino acids composition on normal rats
group A after three weeks of treatments
53
Table 11- Determination of serum amino acids composition : after three weeks of treatment group B:
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 5.899 77.913 3.1 Taurin 2 8.616 913.904 36.4 Urea 3 20.029 0.702 0.0 Aspatric acid 4 26.544 93.676 3.7 Threonine 5 28.683 108.685 4.3 Serine 6 31.717 16.262 0.6 Asparigine 7 33.693 47.137 1.9 Glutamic acid 8 46.675 165.958 6.6 Glycine 9 48.795 196.892 7.8 Alanine 10 50.856 12.874 0.5 Citruline 11 56.325 44.666 1.8 Valine 12 58.896 1.634 0.1 Cystine 13 61.731 14.196 0.6 Methionine 14 64.787 35.175 1.4 Isoleucine 15 66.437 71.365 2.8 Leucine 16 70.195 15.345 0.6 Tyrosine 17 73.397 30.535 1.2 Phenylealanine 18 75.112 4.462 0.2 Homocystine; 19 76.075 22.487 0.9 Histidine 20 76.720 0.585 0.0 1-Methylhistdine 21 79.467 17.102 0.7 Tryptophane 22 80.307 57.935 2.3 Ornthine 23 81.819 97.766 3.9 Lysine 24 83.877 410.219 16.3 Ammonia 25 90.520 53.069 2.1 Argenine total 2510.544 100.0
54
Group B :Normal rats treated by Boscia senegalensis leaves water extract(200mg kg¯1).
Reten . Time {min}
Amount {umol\l}
Amount [%] Peak Type Compound Name
1 22.528 14.901 15.0 Ordnr HYdroxy‐prolline
2 43.624 84.474 85.0 Ordnr Proline Total 99.376 100.0
55
Figure 7: Determination of serum amino acids composition on normal rats
group B after Three weeks of treatments
56
Table 12-Determination of serum amino acids composition: after three weeks of treatment group C:
Reten . Time {min}
Amount {umol\l}
Amount [%] Compound Name
1 5.909 70.965 3.8 Taurin 2 8.664 178.202 9.5 Urea 3 20.085 1.346 0.1 Aspatric acid 4 26.520 5.624 3.0 Threonine 5 28.619 47.82 2.6 Serine 6 33.757 74.048 4.0 Glutamic acid 7 46.693 169.303 9.0 Glycine 8 48.848 328.726 17.5 Alanine 9 50.909 26.717 1.4 Citruline 10 52.968 2.533 0.1 a-Aminobutyric 11 56.381 50.007 2.7 Valine 12 58.955 6.224 0.3 Cystine 13 61.800 14.992 0.8 Methionine 14 64.848 28.000 1.5 Isoleucine 15 66.464 52.876 2.8 Leucine 16 70.243 18.630 1.0 Tyrosine 17 73.429 23.443 1.3 Phenylealanine 18 75.176 4.592 0.2 Homocystine 19 76.176 22.615 1.2 Histidine 20 79.557 27.687 1.5 Tryptophane 21 80.408 65.288 3.5 Ornthine 22 82.291 102.816 5.5 Lysine 23 84.317 466.194 24.9 Ammonia 24 91.080 34.561 1.8 Argenine total 1873.208 100.0
57
Group C:Normal rats treated by B. senegalensis leaves water extract(400mg/kg-1)
Reten . Time {min}
Amount {umol\l}
Amount [%] Peak Type Compound Name
1 22.528 14.901 15.0 Ordnr HYdroxy-prolline
2 43.624 84.474 85.0 Ordnr Proline Total 99.376 100.0
58
Figure 8: Determination of serum amino acids composition on normal rats
group C after three weeks of treatments
59
3.5 The effects of oral administration of Boscia senegalensis leaves water
extract on liver and kidney tissues:.
Histopathological result that: Glumerular alteration, necrosis, segmentaion,
packing of glumerular tubule .fatty vaculation and hemorrhage(cortex) dilatation of
medulla on kidney.
Liver: fatty cytoplasmic of the centrelobular hepatocytes ,necrosis and hemorrhage.
As shown in figures 9, 10 and 11.
Figure 9: Kidney photomicrograph section of rat administered leaves
Water extract of Boscia senegalensis (400mg kg¯1) showing Glumerula tubule
alteration,necrosis,segmentation
(H& E) X 200
60
Figure10 : Kidney photomicrograph section of rat administered water extract of
Boscia senegalensis (400mg kg¯1) showing dilatation of tubule
(H& E) X 200
61
Figure 11: Liver photomicrograph section of rat dministered leaves extract of
Boscia senegalensis (400 mg kg¯1) showing Cytoplasmic fatty va-
culation centrilobular hepatocyte &necrosis hemorrhage on hepa-
tocyte
(H& E) X 200
62
Chapter four
Discussion
This study showed the effect of oral administration of Boscia senegalensis
leaves water extract in two different concentrations on blood content (RBC, WBCs,
HB , MCH, MCHC and platelets ) and on serum ALT,AST , ALP , Urea, Creatinine,
amino acid composition ,electrolyte sodium, potassium on Wister albino rats.
In this study, the administration of water extract of Boscia senegalensis leaves in
different concentration on blood content (RBCs , WBCs ,HB , MCH, MCH ,MCHC
and platelets ) had a significant effect on HB and RBCs there was an increase HB
and decrease RBCs, when compared with Control. This deficiency on RBCs count
and increase of hemoglobin concentration indicated that there were abnormal eryt-
hropoiesis this may appears as production of incompletely hemoglobinated erythro-
cyte or abnormal cells characterized both by deficient in number and having morpho-
logic abnormalities(Coles,1974).
So this reduction on number of Red blood cell result may be attributed to
hemolysis, which is the discharging of the hemoglobin from the Red cell so that it
becomes in the plasma or other medium surrounding the cell, It is known that some
substances like saponin lower surface tension produce hemolysis.It probably
combine with some constituent of cell membrane or other wise alter it (Duke, 1955).
So this reduction on number of Red blood cell and increased hemoglobin this
indicate the hemolysis which may be attributed to saponin on water extract of leaves
of Bsenegalensis.
63
The liver enzymes, Aspartate and Alanine aminotransferases (AST and ALT) are
involved in amino acid metabolism. Large amounts of AST are present in the liver,
kidneys, cardiac muscle and skeletal muscle. However, ALT is known to be found
principally in the liver .Serum ALT and AST levels were always found to increase in
liver cell damage and the greater the degree of liver damage the higher the activities
of both enzymes(Cheesbrough,1991). .
Alkaline Phosphatase (ALP) is a marker enzyme for the plasma membrane and en-
doplasmic reticulum. It is often used to assess the integrity of plasma membrane
(Akanji et al., 1993). It is also related to the function of hepatic cell. Increase in se-
rum level of ALP is due to increased synthesis of the enzyme in presence of increas-
ing biliary pressure. Significant elevation of serum alkaline phosphatase is an indica-
tion of cholestasis with no effective control of ALP activity towards improvement in
the secretory function of the hepatic cell (Van Hoof and De Broe, 1994) .
In this study from the result obtained water extract of Boscia senegalensis
had no significant change on serum AST, ALT, ALP. This indicated that there were
no obvious pathological changes occurs on liver, kidney or muscles (Coles, 1974).
Thus there were slight increase on AST level which may be associated with cellular
necrosis on liver or on different tissues (skeletal, cardiac muscle and liver). By
contrast elevation of ALT level indicates the cellular degeneration or destructions on
liver (Coles, 1974). These could be attributable to the effect of the extract.
Neither serum urea concentration nor Creatinine in the treated rats showed
significant changes when compared with the control group, but there is numerical
decreased on group C this alteration on urea level affected not only by alteration in
renal function but may alter by certain physiological factor or disease not primarily
64
of renal origin (Coles, 1974).Also the slight decrease in Creatinine may indicate to
alter on glomerular filtration or reabsorbed tubule (Coles, 1974).
The histopathological changes observed in the liver and kidneys of rats adminis-
tered higher doses of aqueous extract of B. senegalensis caused the alterations of the
hepatorenal indices. These could be attributable to the effect of the extract. This may
not be a surprise because liver and kidney are sites for xenobiotic metabolism and
excretion, respectively. It is known that various anti nutritional substances and xeno-
biotic chemicals like saponins and tannins cause haemolysis, nutrient malabsorption
and abnormal haemopoesis which could arise from kidney and liver damage
(Chubb, 1982; Connig, 1993).
Also some alkaloids have cytotoxic effect on organs; they damage the cells of the
liver, lungs heart and kidney (Harborne, 1972). The toxicity of the leaves extract of
B. senegalensis may be consequent upon the combined toxicity of constituents de-
tected in the extract such as alkaloids and saponins.
From all previous findings the result is Boscia senegalensis leaves water extract
on dose 400mg/kg has toxic effect on Wister albino rats. This result nearly agree
with ( Nongoniermsierm ,2007) whose said the extracts of the leaves
of B .senegalensis at dose of 1 g/kg were very toxic,The LD50 was equal to 0, 44
g/k.
65
Conclusions and Recommendations
Conclusions :
From observations and results of this investigations, it can be concluded that:
1. The administration of Boscia senegalensis water extract to normal rats had
a significant effect on Red blood cell count 7.598±02153* and hemoglobin con-
centration . Decreased Red blood cell count and increased hemoglobin concentra-
tion 15.35±0.395*.
2. The administration of Boscia senegalensis water extract to normal rats had no
significant effect on serum enzyme ALT, AST and ALP concentration or on se-
rum urea and Creatinine on treated group.But ALT and AST had been numerical-
ly increased ,by contrast Urea and Creatinine had been decrease (after two weeks
from the start of experiment).
After three weeks there were numerically decreased ALT, AST, ALP and urea
concentration on group B in contrast group C had increased ALT, AST, ALP.
3. The administration of Boscia senegalensis extract to normal rats had no signifi-
cant effect on serum electrolyte sodium and potassium. But there were numerical-
ly increased on sodium and potassium after two weeks of the experiment on B
and C, but there were numerically increased on sodium and decreased potassium
after three weeks.
4-The administration of Boscia senegalensis water extract to normal rats had an
effect on liver and kidney organ of group C (4oomg/kg).
66
RECOMMENDATIONS
Because Boscia senegalensis has different uses in folkloric medicine and nutri-
tion for human and animal I recommended that:
1. More pharmacological studies on this plant to determine the active principle of
Boscia senegalensis.
2. More pharmacological studies on this plant to determine lethal dose.
3. More research should be carried out to determine whole biological effect.
4. More research should be carried out to determine the carcinogenic effect
67
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